693.932 PEOPLE
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| Naji, M. |
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| Petrov, R. H. | Madrid |
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Shukla, Pratik
University of Chester
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (32/32 displayed)
- 2023Effect of laser shock peening on austempered ductile ironcitations
- 2020On restructuring the microstructure of Ti-6Al-7Nb alloy before surface engineeringcitations
- 2019Residual stress, phase, microstructure and mechanical property studies of ultrafine bainitic steel through laser shock peeningcitations
- 2019Effect of laser shock peening on commercially pure titanium-1 weldment fabricated by gas tungsten arc welding techniquecitations
- 2019Altering the wetting properties of orthopaedic titanium alloy (Ti–6Al–7Nb) using laser shock peeningcitations
- 2019Shock-wave induced compressive stress on alumina ceramics by laser peeningcitations
- 2018Enhanced surface and mechanical properties of bioinspired nanolaminate graphene-aluminium alloy nanocomposites through laser shock processing for biomedical implant and engineering applicationscitations
- 2018Laser shock peening without coating induced residual stress distribution, wettability characteristics and enhanced pitting corrosion resistance of austenitic stainless steelcitations
- 2018Laser cleaning of grey cast iron automotive brake disc
- 2017Effect of Laser Shock Peening (LSP) on the Microstructure, Residual Stress State and Hardness of a Nickel based Superalloy
- 2017Improvement in mechanical properties of titanium alloy (Ti-6Al-7Nb) subject to multiple laser shock peeningcitations
- 2017Corrigendum to “Surface property modifications of silicon carbide ceramic following laser shock peening” [J. Eur. Ceram. Soc. 37 (9) (2017) 3027–3038]
- 2017Surface property modifications of silicon carbide ceramic following laser shock peeningcitations
- 2016Development in laser peening of advanced ceramiccitations
- 2016Modulating the wettability characteristics and bioactivity of polymeric materials using laser surface treatmentcitations
- 2015Laser surface treatment of polyamide and NiTi alloy and the effects on mesenchymal stem cell response
- 2015Development in laser peening of advanced ceramicscitations
- 2015Modulating the wettability characteristics and bioactivity of polymeric materials using laser surface treatment
- 2014Investigation of temperature distribution during CO2 laser and fibre laser processing of a Si3N4 engineering ceramic by means of a computational and experimental approach
- 2014Laser Shock Peening and Mechanical Shot Peening Processes Applicable for the Surface Treatment of Technical Grade Ceramicscitations
- 2013Role of laser beam radiance in different ceramic processingcitations
- 2013Investigation of temperature distribution during CO2 and Fibre laser processing of Si3N4 engineering ceramic by means of a computational and experimental approach
- 2013Evaluation of surface cracks following processing of a ZrO2 advance ceramic with CO2 and fibre laser radiation
- 2013Evaluation of Surface Cracks following Processing of a ZrO2 Advance Ceramic with CO2 and Fibre laser Radiation
- 2011Influence of laser beam brightness during surface treatment of a ZrO 2 engineering ceramic
- 2010Surface characterization and compositional evaluation of a fibre laser processed silicon nitride (Si3N4) engineering ceramic
- 2010Analysis of temperature distribution during fibre laser surface treatment of a zirconia engineering ceramiccitations
- 2010Fracture toughness modifications by means of CO2 laser beam surface processing of a silicon nitride engineering ceramiccitations
- 2010Fracture toughness of a zirconia engineering ceramic and the effects thereon of surface processing with fibre laser radiationcitations
- 2010On the Establishment of an Appropriate Method for Evaluating the Residual Stresses after Laser Surface Treatment of ZrO2 and Si3N4 Engineering Ceramics’
- 2009Characterization and compositional study of fibre laser processed engineering ceramics
- 2009Laser surface treatment of engineering ceramics and the effects thereof on fracture toughness
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article
Effect of laser shock peening on austempered ductile iron
Abstract
<jats:p> In this study, laser shock peening (LSP) has been applied on austempered ductile iron (ADI) to determine the optimum laser power and spot overlapping rate required for automotive gear applications. The surface roughness and phases present were studied to understand the effect of the laser shock wave application on the material. An increase in the mean surface roughness was achieved when the laser spot overlap increased from 20% to 60%. A significant increase in the microhardness was obtained in the surface and sub-surface, indicating an increased dislocation density of the material. Compressive residual stress depth and magnitude characterized by X-ray Diffraction (XRD) and Incremental Hole Drilling (IHD) were found to increase with laser power density. This work significantly identifies the pathway toward the engineering manufacture of austempered ductile iron and the application of LSP for the automotive drive-train industries. </jats:p>